CobbW.A., Rhythmic slow discharges in the electroencephalogram, J. Neurol. Neurosurg. Psychiat.8:65, 1945.
2.
FaureJ.Droogleever-FortuynJ.GastautH., De la gene'se et de la signification des rhythmes recueillis a' distance dans les cas de tumeurs cerebrales, Electroenceph. Clin. Neurophysiol., 3:429–434, 1951.
3.
DalyD.WhelanJ.L.BickfordR.G., The electroencephalogram in cases of tumors of the posterior fossa and third ventricle, Electroenceph. Clin. Neurophysiol., 5:203–216, 1953.
4.
JasperH., and Van BureenJ., Interrelationship between cortical and subcortical structures: Clinical electroencephalographic studies, Electroenceph. Clin. Neurophysiol., Suppl., 4:168–188, 1953.
5.
CordeauJ.P., Monorhythmic frontal delta activity in human electroencephalogram: A study of 100 cases, Electroenceph. Clin. Neurophysiol., 11:733–746, 1959.
6.
LescheyW.L.BriggsR.C., and AltemusL.R., Frontal intermittent rhythmic delta activity (FIRDA), periventricular edema and normal pressure hydrocephalus, Clin. Electroenceph., 9:110–117, 1978.
7.
GastautJ.L.MichelB.Sabet-HassansCerdaM.BianchiL., and GastautH., Electroencephalography in brain edema (127 cases of brain tumor by cranial computerized tomography), Electroenceph. Clin. Neurophysiol., 46:239–255, 1979.
8.
MichelB.GastautJ.L., and BianchiL., Elecroencephalographic cranial computerized tomographic correlation in brain abscess, Electroenceph. Clin. Neurophysiol., 46:256–273, 1979.
9.
RowanA.J.RudolfM. de M., and ScottD.F., EEG prediction of brain metastases, J. Neurol. Neurosurg. Psychiat., 37:88–893, 1974.
10.
Van De DriftJ.H.A., and MagnusO., Cerebral metastases, Electroenceph. Clin. Neurophysiol., Suppl., 19:138–140, 1961.
11.
BagchiB.K.KooiK.A.SelvingB.T., Subtentorial tumors and other lesions: An electroencephalographic study of 121 cases, Electroenceph. Clin. Neurophysiol., 13:180–192, 1961.
12.
MartiniusJ.MatthesA., and LombrosoC.T., Electroencephalographic features in posterior fossa tumors in children, Electroenceph. Clin. Neurophysiol., 25:128–139, 1968.
13.
GloorP., Generalized and widespread bilateral paroxysmal activities, In RemondA., (Editor): Handbook of Electroencephalography and Clinical Neurophysiology, Amsterdam, Elsevier, 1975, Vol. 11, part B, section IV, pp. 52–87.
14.
HiroseG.LombrosoC.T., and EisenbergH., Thalamic tumors in childhood: Clinical laboratory and therapeutic considerations, Arch. Neurol., 32:740–744, 1975.
15.
GloorP.BallG., and SchaulN., Brain lesions that produce delta waves in the EEG, Neurology (Minneap), 27:326–333, 1977.
16.
JasperH., and VanburenJ., Interrelationship between cortex and subcortical structures: Clinical electroencephalographic studies, Electroenceph. Clin. Neurophysiol., 4 (Suppl): 168–188, 1953.
17.
GloorP.KalabayO., and GirardN., The electroencephalogram in diffuse encephalopathies: Electroencephalographic correlates of grey and white matter lesions, Brain, 91:779–802, 1968.
FoleyJ.M.WatsonC.W., and AdamsR.D., Significance of the electroencephalographic changes in hepatic coma, Trans, Am. Neurol. Assoc., 75:161–164, 1950.
20.
SchaulN.GloorP., and GotmanJ., The EEG in deep midline lesions, Neurology, 31:157–167, 1981.
21.
FarrielloR.G.OrrisonW., and BlancoG., Neurological correlates of FIRDA, (In publication).
22.
HooshmandH., and MaloneyM., Clinical significance of FIRDA, (In publication).
23.
CohnR., Electroencephalographic study of prefrontal leucotomy, Arch. Neurol. (Chic), 53:293–288, 1945.
24.
EvansB.M.BridgesP.K., and BarlettJ.R., Electroencephalographic changes as prognostic indicators after psychosurgery, J. Neurol. Neurosurg. Psychiat.44:444–447, 1981.
